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A method for repairing a component having first and second major surfaces, a thickness between the major surfaces, and an edge, is characterized by utilizing a template to determine if the component is suitable for repair, and forming a slot cut entirely through the thickness of the component. The s

A method for repairing a component having first and second major surfaces, a thickness between the major surfaces, and an edge, is characterized by utilizing a template to determine if the component is suitable for repair, and forming a slot cut entirely through the thickness of the component. The slot extends inward from the edge of the component, has an open end at the edge of the component, a closed end within the component, a width, a radius at the closed end, and chamfered edges at the open end. Forming the slot includes forming an initial cut with a first cutting surface from the edge of the component at least to the defect, finishing the initial cut to the width and the radius with a second cutting surface, resulting in a finished cut, and chamfering the edge of the finished cut with a third cutting surface.

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1. A method for repairing a defect in a component having a first major surface and a second major surface, a thickness between the major surfaces, and an edge perpendicular to the major surfaces, the method characterized by: utilizing a template to determine if the component is suitable for repair;

1. A method for repairing a defect in a component having a first major surface and a second major surface, a thickness between the major surfaces, and an edge perpendicular to the major surfaces, the method characterized by: utilizing a template to determine if the component is suitable for repair; andforming a slot cut entirely through the thickness of the component, the slot extending inward from the edge of the component towards an interior of the component to a depth from the edge sufficient to remove at least a substantial part of the defect, the slot having an open end at the edge of the component, a closed end within the component, a width, a radius at the closed end, and chamfered edges at the open end, wherein the template is utilized prior to forming the slot, and wherein forming the slot in the component comprises: forming an initial cut in the component with a first cutting surface, wherein the initial cut extends from the edge of the component at least to the defect;finishing the initial cut to the width and the radius with a second cutting surface, resulting in a finished cut including the edge at an open end of the finished cut at the edge of the component; andchamfering the edge of the finished cut with a third cutting surface. 2. The method of claim 1, wherein the slot is formed using at least one device capable of removing consistent amounts of material from the component regardless of an operator that is operating the at least one device. 3. The method of claim 1, further comprising: weld repairing the component after the slot is formed therein. 4. The method of claim 1, wherein the component comprises a gas turbine engine component. 5. The method of claim 4, wherein the gas turbine engine component comprises at least one of: a blade and a vane. 6. The method of claim 1, wherein forming the slot in the component comprises: positioning a single removal device capable of forming the slot in contact with the component. 7. The method of claim 1, further comprising: securing the component in a fixture configured to receive the component. 8. The method of claim 2, wherein the at least one device comprises a single cutting wheel designed to cut the slot in the component. 9. The method of claim 2, wherein the at least one device comprises: a rough cutting device capable of rough-cutting the slot in the component;a finish routing device capable of establishing a consistent routing width and radius at the end of the slot after the slot is rough-cut; anda chamfering device capable of chamfering the edges of the open end at the edge of the component after the slot is finish routed. 10. The method of claim 1, and further comprising: positioning the component in a set up device with a predetermined orientation before the slot is formed therein. 11. The method of claim 3 and further comprising: using the chamfered edges at the open end of the slot to provide a visual indicium of the depth of a weld formed in the slot. 12. The method of claim 1 and further comprising: fitting the template over at least a portion of the component. 13. A method for repairing a defect in a component having a first major surface and a second major surface, a thickness between the major surfaces, and an edge perpendicular to the major surfaces, the method characterized by: forming a slot cut entirely through the thickness of the component, the slot extending inward from the edge of the component towards an interior of the component to a depth from the edge sufficient to remove at least a substantial part of the defect, the slot having an open end at the edge of the component, a closed end within the component, a width, a radius at the closed end, and chamfered edges at the open end, wherein forming the slot in the component comprises: forming an initial cut in the component with a first cutting surface, wherein the initial cut extends from the edge of the component at least to the defect;finishing the initial cut to a predetermined width and radius with a second cutting surface, resulting in a finished cut including an edge at an open end of the finished cut at the edge of the component; andchamfering the edge of the finished cut with a third cutting surface. 14. A method for repairing a defect in a component having a first major surface and a second major surface, a thickness between the major surfaces, and an edge perpendicular to the major surfaces, the method characterized by: forming a slot cut entirely through the thickness of the component, the slot extending inward from the edge of the component towards an interior of the component to a depth from the edge sufficient to remove at least a substantial part of the defect, the slot having an open end at the edge of the component, a closed end within the component, a width, a radius at the closed end, and chamfered edges at the open end, wherein the slot is formed using at least one device capable of removing consistent amounts of material from the component regardless of an operator that is operating the at least one device, wherein the at least one device comprises:a rough cutting device capable of rough-cutting the slot in the component;a finish routing device capable of establishing a consistent routing width and radius at the end of the slot after the slot is rough-cut; anda chamfering device capable of chamfering the edges of the open end at the edge of the component after the slot is finish routed.